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27.1 A 65nm Energy-Harvesting ULP SoC with 256kB Cortex-M0 Enabling an 89.1µW Continuous Machine Health Monitoring Wireless Self-Powered System

机译：27.1具有256kB Cortex-M0的65nm节能ULP SoC，可实现89.1µW连续机器健康监测无线自供电系统

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This paper presents a system-on-chip (SoC) that enables commercial self-powered systems (SPSs) by flexibly managing application needs, harvesting energy from multiple modalities, coordinating low-latency/high-density network communication, and optimizing power across the system. To scale to a trillion IoT nodes, devices must untether from batteries by achieving energy autonomy. A SPS must balance harvested power $(mathrm{P}_{mathrm{H}})$ with load power $(mathrm{P}_{mathrm{L}})$ to enable continuous operation, which becomes challenging in real-world harvesting conditions for applications with stringent functional needs. While this SoC can support many IoT applications, we demonstrate the SoC in a machine health monitoring (MHM) product that uses multi-modal sensors to forecast motor failure to minimize downtime.

机译：本文提出了一种片上系统（SoC），它可以通过灵活地管理应用程序需求，从多种模式中收集能量，协调低延迟/高密度网络通信以及优化整个系统的电源来实现商业自供电系统（SPS）。系统。为了扩展到1万亿个IoT节点，设备必须通过实现能源自主来摆脱电池的束缚。 SPS必须平衡收集的功率 $（\ mathrm {P} _ {\ mathrm {H}}）$ 带负载功率 $（\ mathrm {P} _ {\ mathrm {L}}）$ 以实现连续运行，这对于具有严格功能需求的应用在现实世界的采收条件下具有挑战性。尽管此SoC可支持许多物联网应用，但我们在机器健康监控（MHM）产品中演示了SoC，该产品使用多模式传感器来预测电机故障，以最大程度地减少停机时间。

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《IEEE International Solid- State Circuits Conference》|2020年|420-422|共3页
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Jonathan K. Brown; David Abdallah; Jim Boley; Nicholas Collins; Kyle Craig; Greg Glennon; Kuo-Ken Huang; Christopher J. Lukas; William Moore; Richard K. Sawyer; Yousef Shakhsheer; Farah B. Yahya; Alice Wang; Nathan E. Roberts; David D. Wentzloff; Benton H. Calhoun;
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Monitoring; Clocks; Protocols; Synchronization; Random access memory; Wireless communication; Robustness;

机译：监视;时钟;协议;同步;随机存取存储器;无线通信;稳健性;

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1. A 6.45 $mu{rm W}$ Self-Powered SoC With Integrated Energy-Harvesting Power Management and ULP Asymmetric Radios for Portable Biomedical Systems [J] . Roy Abhishek, Klinefelter Alicia, Yahya Farah B., Biomedical Circuits and Systems, IEEE Transactions on . 2015,第6期

机译：具有集成式能量收集电源管理和适用于便携式设备的ULP非对称无线电的6.45 $ mu {rm W} $ 自供电SoC生物医学系统
2. A 700-$mu$ W Wireless Sensor Node SoC for Continuous Real-Time Health Monitoring [J] . Teo T. H., Qian X., Kumar Gopalakrishnan P., Solid-State Circuits, IEEE Journal of . 2010,第11期

机译：用于连续实时健康监测的700-μμWW无线传感器节点SoC
3. Ontology-Based Framework Enabling Smart Product-Service Systems: Application of Sensing Systems for Machine Health Monitoring [J] . Maleki Elaheh, Belkadi Farouk, Boli Nikoletta, Internet of Things Journal, IEEE . 2018,第6期

机译：支持智能产品服务系统的基于本体的框架：传感系统在机器健康监控中的应用
4. 21.3 A 6.45μW self-powered IoT SoC with integrated energy-harvesting power management and ULP asymmetric radios [C] . Klinefelter Alicia, Roberts Nathan E., Shakhsheer Yousef, IEEE International Solid- State Circuits Conference . 2015

机译：21.3具有集成式能量收集电源管理和ULP非对称无线电的6.45μW自供电IoT SoC
5. Data Interpretation Frameworks Employing Machine Learning for Energy-lean Data-driven Structural Health Monitoring with Novel Self-powered Sensing Technology [D] . Salehi, Hadi 2019

机译：数据解释框架，采用机器学习技术，通过新型自供电传感技术实现能源贫乏的数据驱动的结构健康监测
6. A Self-Powered Wireless Water Quality Sensing Network Enabling Smart Monitoring of Biological and Chemical Stability in Supply Systems [O] . Marco Carminati, Andrea Turolla, Lorenzo Mezzera, 2020

机译：自供电的无线水质传感网络可对供水系统中的生物和化学稳定性进行智能监控
7. A 385×385µm2 0.165V 0.27nW Fully-Integrated Supply-Modulated OOK Transmitter in 65nm CMOS for Glasses-Free, Self-Powered, and Fuel-Cell-Embedded Continuous Glucose Monitoring Contact Lens [O] . Kenya HAYASHI, Shigeki ARATA, Ge XU, 2019

机译：385×385μm 2 0.165V 0.27W 0.27W为65nm CMOS的完全集成的电源调制的OOK变送器，用于无眼镜，自动和燃料 - 电池嵌入式连续葡萄糖监测隐形眼镜
8. Self-Powered Wireless Brake Health Monitor. Research Results [R] . 2008

机译：自供电无线制动健康监视器。研究结果

27.1 A 65nm Energy-Harvesting ULP SoC with 256kB Cortex-M0 Enabling an 89.1µW Continuous Machine Health Monitoring Wireless Self-Powered System

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